A Novel Scheme for Rapid Tracking of Maximum Power Point in Wind Energy Generation Systems

This paper presents a novel maximum power point (MPP) tracking (MPPT) algorithm for grid-connected wind energy generation systems (WEGS). This is a rapid tracking algorithm that uses the fact that the value of ¿ß,¿ an intermediate variable, especially defined for the purpose, remains constant ( =ß M...

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Published in:IEEE transactions on energy conversion 2010-03, Vol.25 (1), p.228-236
Main Authors: Agarwal, V., Aggarwal, R.K., Patidar, P., Patki, C.
Format: Article
Language:English
Subjects:
Algorithms
Costs
Hardware
Induction generators
Matrix converter (MC)
Matrix converters
Maximum power
maximum power point tracking (MPPT) algorithm
Narrowband
Power electronics
Power generation
space vector modulation (SVM)
squirrel cage induction generator (SCIG)
Switching
Tracking
Venturini
Wind energy
Wind energy generation
wind energy generation system (WEGS)
Wind power generation
Wind speed
Wind turbines
Wind velocity
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cited_by cdi_FETCH-LOGICAL-c452t-354f51d595dc1ac2a789e241b21603491ac52ccbf2afc50bcb49158d91cb57063
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container_title IEEE transactions on energy conversion
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creator Agarwal, V.
Aggarwal, R.K.
Patidar, P.
Patki, C.
description This paper presents a novel maximum power point (MPP) tracking (MPPT) algorithm for grid-connected wind energy generation systems (WEGS). This is a rapid tracking algorithm that uses the fact that the value of ¿ß,¿ an intermediate variable, especially defined for the purpose, remains constant ( =ß MPP ) for a given WEGS at the MPP irrespective of the wind velocity. The value of ß MPP is known in advance. The algorithm works in two stages. In the first stage, it uses large steps to quickly drive the operating point to lie within a narrow band with limits ß max and ß min . In the second stage, exact MPP is tracked using the ¿perturb and observe¿ method. No extra hardware or measurements (sensors) are required compared to the existing algorithms. Hence, the cost is not increased. Application of the proposed algorithm to an example WEGS shows that the time taken by the system to reach MPP is much smaller compared to most of the existing algorithms. A prototype matrix converter has been developed for grid interfacing and the proposed MPPT scheme has been implemented in conjunction with Venturini and space-vector-modulation-based switching schemes. All the results of this study are presented.
doi_str_mv 10.1109/TEC.2009.2032613
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This is a rapid tracking algorithm that uses the fact that the value of ¿ß,¿ an intermediate variable, especially defined for the purpose, remains constant ( =ß MPP ) for a given WEGS at the MPP irrespective of the wind velocity. The value of ß MPP is known in advance. The algorithm works in two stages. In the first stage, it uses large steps to quickly drive the operating point to lie within a narrow band with limits ß max and ß min . In the second stage, exact MPP is tracked using the ¿perturb and observe¿ method. No extra hardware or measurements (sensors) are required compared to the existing algorithms. Hence, the cost is not increased. Application of the proposed algorithm to an example WEGS shows that the time taken by the system to reach MPP is much smaller compared to most of the existing algorithms. A prototype matrix converter has been developed for grid interfacing and the proposed MPPT scheme has been implemented in conjunction with Venturini and space-vector-modulation-based switching schemes. 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source IEEE Electronic Library (IEL) Journals
subjects Algorithms
Costs
Hardware
Induction generators
Matrix converter (MC)
Matrix converters
Maximum power
maximum power point tracking (MPPT) algorithm
Narrowband
Power electronics
Power generation
space vector modulation (SVM)
squirrel cage induction generator (SCIG)
Switching
Tracking
Venturini
Wind energy
Wind energy generation
wind energy generation system (WEGS)
Wind power generation
Wind speed
Wind turbines
Wind velocity
title A Novel Scheme for Rapid Tracking of Maximum Power Point in Wind Energy Generation Systems
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